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RF33
1.
General Description
The RF33 photocells are fitted with a transmitter that can be powered by two 3V6 2.7Ah lithium Thionyl chloride batteries or with an external
12/24V AC/DC power supply, selectable with a jumper.
The optical unit (emitter diode + lens) of the transmitter and of the receiver can be oriented in three different directions so it can be adapted to
different installation situations.
The photocell has two terminals for the connection of a free contact of an external safety device (safety edge) and two terminals for the connection
of a resistive edge. The photocell is particularly suited for use on sliding gates, mounted on the mobile part it can be connected to a wire or resistive
safety edge, without having to lay cables or use re-wind cables.
The battery life-span is more than 15 months.
2.
Main technical features
Power supply Transmitter
Power supply Receiver
Consumption Transmitter
Consumption Receiver
Container
Dimensions/weight
Protection rating
Infra-red wavelength
Relay contact range
Infra-red beam range
Operating temperature
Intervention time with triggering of
photocell beam
Intervention time with triggering of
safety edge connected to terminal
strip
Reset time
3.
Receiver terminal strip
1
+V
2
- V
3
N.C./N.O.
4
C
5
LOW BAT
6
LOW BAT
4.
Transmitter terminal strip
1
+12 - +24 V AC/DC
2
0 V
3
EDGE
4
EDGE
5
EDGE 8K2
6
EDGE 8K2
5.
Installation
Fix the photocell using the supplied drilling template (fig. 2)
-
Make connections as indicated in the previous paragraphs and
-
select the transmitter power supply with the specific jumper
(J1, Fig. 1B):
POSITION A: external power supply 12-24 V AC/DC
POSITION B: battery powered
Select the same operating frequency on the receiver and on
-
the transmitter with the specific jumpers (J2, fig 1A & 1B):
Frequency 1: Jumper disabled
Frequency 2: Jumper enabled
Connect to the specific terminal strip (terminals 3 & 4, Fig. 1B)
-
the safety edge or external safety device contact to the
transmitter. If this option is not used, jump terminals 3 and
4.
Connect to the specific terminal strip (terminals 5 & 6, Fig. 1B)
-
the contacts of the 8K2 resistive edge external to the
transmitter. If this option is not used, leave the supplied
resistor connected between terminals 5 and 6.
Select on the receiver the logic of the NO or NC output contact
-
with jumper J3.
Position on the transmitter the probe in the position from the
-
three possibilities most suitable to the alignment.
2 3V6 2.7Ah Lithium Thionyl chloride batteries
Alternatively 12 - 24 V AC/DC
12 -24 V AC/DC
< 500 µA
30 mA
ABS
110 x 50 x 25 mm 200g
IP 45
950 nm
0.5 A @ 24 V AC/DC
25 m nominal (8 m outdoor )
-20 +55° C
< 40 ms
< 60 ms
< 150 ms
Power supply 12 - 24 V AC/DC
Relay contact normally open or closed depending on
NO/NC selection jumper
Flat battery Normally open contact
Power supply 12 - 24 V AC/DC
Common power supply
Terminal for safety edge free contact
(jump if not used)
Terminal for 8K2 resistive edge
(if not used, leave the supplied resistor connected)
ENGLISH
1 2 3 4 5 6
1 2 3 4 5 6
Align the beam to the receiver by adjusting the specific fixing
-
screws "A" (fig. 2) supplied, both on the receiver and the
transmitter.
With a voltmeter, set for measurement of alternating voltage,
-
measure the value on the receiver test-point. (Fig. 1A). This
value varies according to various parameters, among which
the distance between the photocells. The higher the voltage
value on the test-point the better is the alignment. The ideal
measure should be between 0.5 and 0.6 VAC.
Check that the interruption of the infra-red beam causes the
-
normally closed contact of the relay on the receiver to open
and the red LED to turn off.
6.
Flat battery signal
The flat battery situation is signalled optically by the transmitter to
the receiver.
The receiver closes the free LOW BAT contact available in the
terminal strip and activates an intermittent buzzer.
The flat battery indication is given one week before the battery is
completely flat.
Once the batteries have been replaced, switch the receiver OFF
then back ON to deactivate the LOWBAT contact and the buzzer.
However, this will happen automatically after 15 minutes.
Test point
J2: Frequency
Selection
J3: NO/NC
contact selection
Fig. 1A
(RX)
J2: Frequency
Selection
B
A
J1: Power supply
selection
Fig. 1B
(TX)
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